TWI851271B - Horizontal energy-saving water heater - Google Patents

Abstract

A Horizontal Energy-saving Water Heater. The horizontal energy-saving water heater comprises an outer-layer barrel, a middle-layer barrel, an inner-layer barrel, a first heat-preservation layer and a second heat-preservation layer. The middle-layer bucket is located in the outer-layer bucket. There is a distance length a between the top of the middle-layer barrel and the top of the outer-layer barrel, and a distance length b between the bottom of the middle-layer barrel and the bottom of the outer-layer barrel is greater than the distance length b. The inner-layer barrel is located in the middle-layer barrel. The inner barrel has a water storage space. The first thermal insulation layer is located between the outer tub and the middle tub. The second thermal insulation layer is located between the middle layer barrel and the inner layer barrel.

Description

Horizontal Energy-saving Water Heater (II)

The present invention relates to a horizontal energy-saving water heater, the purpose of which is to extend the time for hot water inside the water heater to continue to keep warm when it is not heated.

A water heater is a very important device. Its function is to raise the temperature of water from room temperature to the target temperature. A common application in life is to heat tap water in cold weather to provide users with hot water for bathing.

Water heaters are generally classified into gas-fired and electric-heated types in terms of heating methods. Gas-fired water heaters have many restrictions on installation locations because the exhaust gas produced during combustion can be fatal, such as carbon monoxide. Therefore, they must be installed in areas where the exhaust gas can be discharged, which is not easy for many residents, so they choose to use electric-heated water heaters. However, compared to gas-fired water heaters, although electric-heated water heaters do not produce fatal exhaust gas during use, the common basic type has a power consumption of more than 4kw, which has the disadvantage of high power consumption.

In view of the above content, it can be known that how to develop an electric water heater that improves the efficiency of hot water supply to save electricity bills and energy consumption is a problem that needs to be solved with great priority.

Generally speaking, based on the convection phenomenon of water, the hotter water in the water heater will be concentrated in the upper half of the entire water storage space. Therefore, the upper half of the water storage space of the water heater requires more insulation than the lower half. Therefore, the present invention increases the distance between the top of the middle barrel and the top of the outer barrel, and at the same time reduces the distance between the bottom of the middle barrel and the bottom of the outer barrel. In this way, the upper half of the water storage space can achieve a better insulation effect than the lower half. This can indeed extend the continuous insulation time of the hot water in the water storage space when it is not heated, and the overall volume does not need to be increased compared to traditional water heaters, which is indeed novel and progressive.

To achieve the above-mentioned purpose and effect, the present invention provides a horizontal energy-saving water heater, which includes: an outer barrel; a middle barrel, which is located in the outer barrel, a distance length A between the top of the middle barrel and the top of the outer barrel, a distance length B between the bottom of the middle barrel and the bottom of the outer barrel, and the distance length A is greater than the distance length B; an inner barrel, which is located in the middle barrel, and the inner barrel has a water storage space; a first heat-insulating layer, which is located between the outer barrel and the middle barrel; a second heat-insulating layer, which Located between the middle barrel and the inner barrel; a cold water pipe, one end of which is exposed outside the outer barrel, the cold water pipe partially penetrates the outer barrel, the middle barrel, and the inner barrel, and the other end of the cold water pipe is located inside the inner barrel; a hot water pipe, one end of which is exposed outside the outer barrel, the hot water pipe partially penetrates the outer barrel, the middle barrel, and the inner barrel, and the other end of the hot water pipe is located inside the inner barrel; a heating device, at least part of which is located inside the inner barrel; a control device, which is electrically connected to the heating device.

Furthermore, the material of the first thermal insulation layer and the second thermal insulation layer can be one of styrofoam and foam material.

Furthermore, the material of the first thermal insulation layer and the second thermal insulation layer can be vacuum.

Furthermore, the outer barrel, the middle barrel and the inner barrel are made of stainless steel.

Furthermore, the distance length A is more than five times the distance length B.

Furthermore, there is a distance length C between the top of the middle barrel and the top of the inner barrel, and a distance length D between the bottom of the middle barrel and the bottom of the inner barrel, and the distance length C is greater than the distance length D.

Furthermore, the positions of the inner barrel, the middle barrel, and the outer barrel relative to each other make the whole present an asymmetric configuration.

To understand the implementation of the present invention in more detail, please refer to the drawings. As shown in the first and second figures, the present invention is a horizontal energy-saving water heater, which includes: an outer barrel 1; a middle barrel 2, which is located in the outer barrel 1, and there is a distance length A between the top of the middle barrel 2 and the top of the outer barrel 1, and there is a distance length B between the bottom of the middle barrel 2 and the bottom of the outer barrel 1, and the distance length A is greater than the distance length B; an inner barrel 3, which is located in the middle barrel 2, and the inner barrel 3 has a water storage space 31; a first heat preservation layer 4, which is located between the outer barrel 1 and the middle barrel 2; a second heat-insulating layer 5, which is located between the middle barrel 2 and the inner barrel 3; a cold water pipe 6, one end of which is exposed outside the outer barrel 1, the cold water pipe 6 partially penetrates the outer barrel 1, the middle barrel 2, and the inner barrel 3, and the other end of the cold water pipe 6 is located inside the inner barrel 3; a hot water pipe 7, one end of which is exposed outside the outer barrel 1, the hot water pipe 7 partially penetrates the outer barrel 1, the middle barrel 2, and the inner barrel 3, and the other end of the hot water pipe 7 is located inside the inner barrel 3; a heating device 8, at least part of which is located inside the inner barrel 3; a control device 9, which is electrically connected to the heating device 8.

In the present invention, the control device 9 is set on the outer barrel 1 as an example. In practice, the control device 9 can be set at different positions according to different control methods such as manual control and wireless control. The control method of the control device 9 and the heating device 8 is a known technology and will not be described in detail here.

As shown in the second figure, the material of the first insulation layer 4 and the second insulation layer 5 can be one of styrofoam and foam material, and the foam material can be polystyrene (EPS), polyurethane (PU), polyethylene (PE), polyvinyl chloride (PVC), polystyrene-butadiene rubber (EPP), polyoxymethylene foam (PF), and polypropylene (PP).

As shown in the third figure, the first thermal insulation layer 4 and the second thermal insulation layer 5 can be vacuum.

The outer barrel 1, the middle barrel 2, and the inner barrel 3 are made of stainless steel.

The above content is followed to further describe the implementation of the present invention. When the present invention is installed, the end of the cold water pipe 6 exposed from the outer barrel 1 is used to connect to the water source, and the end of the hot water pipe 7 exposed from the outer barrel 1 is used to connect to the water outlet device (e.g., shower head, faucet), and the control device 9 is connected to the power source (e.g., mains socket). In this embodiment, the cold water pipe 6 and the hot water pipe 7 are two-section type. Generally speaking, based on the convection phenomenon of water, the hotter water in the water heater will be concentrated in the upper half of the entire water storage space 31. Therefore, the upper half of the water storage space 31 of the water heater needs to be more than the lower half. More heat preservation, for this purpose, as shown in the second figure, the present invention increases the distance between the top of the middle barrel 2 and the top of the outer barrel 1, and at the same time reduces the distance between the bottom of the middle barrel 2 and the bottom of the outer barrel 1 (the distance length A in the figure is greater than the distance length B), so that the top part of the first insulation layer 4 will be thicker, and the upper half of the water storage space 31 can achieve better heat preservation effect than the lower half, so that the hot water in the water storage space 31 can be extended in the case of continuous heat preservation without heating, and the overall volume does not need to be increased compared with the traditional water heater, which is indeed novel and progressive.

The effect is better when the distance length A is more than five times the distance length B.

In addition, as shown in the fourth figure, there is a distance length C between the top of the middle barrel 2 and the top of the inner barrel 3, and there is a distance length D between the bottom of the middle barrel 2 and the bottom of the inner barrel 3. The distance length C is greater than the distance length D. In this configuration, in addition to the first insulation layer 4, the top part of the second insulation layer 5 will also be thicker to further enhance the insulation effect of the upper half of the water storage space 31.

The positions of the inner barrel 3, the middle barrel 2, and the outer barrel 1 relative to each other make the overall configuration asymmetrical. Please refer to Figures 5 to 8 for the asymmetrical configuration. The so-called asymmetrical configuration can be clearly understood by the center lines L1~L4 in the aforementioned figures. The advantage of this configuration is that it can maximize the thermal insulation effect. For example, taking Figure 5 as an example, based on the direction in the figure, the thickness of the right side of the first thermal insulation layer 4 and the second thermal insulation layer 5 is obviously thinner. This configuration is more suitable for the setting against the wall on the right side, because the part against the wall itself is not easy to dissipate heat, so only a thinner thickness is required. The configurations of Figures 6 to 8 are similar. The key is that the thinner parts of the first thermal insulation layer 4 and the second thermal insulation layer 5 are suitable for being against the wall, so that the thermal insulation effect of the side not against the wall can be maximized.

In addition to the above configuration, it can also be as shown in the second figure, wherein the inner barrel 3 is located at the center of the middle barrel 2 (distance length E = distance length F, distance length G = distance length H), and the middle barrel 2 is located at the horizontal center of the outer barrel 1 (distance length I = distance length J).

In addition, referring to FIG. 9 and FIG. 10, which are experimental data diagrams of the heating times of the conventional water heater and the present invention when not in use, it can be seen that the present invention has a better heat preservation effect under the same time, so the heating times are less, which proves that the present invention can indeed prolong the continuous heat preservation time of the hot water in the water storage space when not heated compared with the conventional water heater.

The above is only used to explain the preferred embodiments of the present invention, and is not intended to limit the present invention in any form. Therefore, any modifications or changes made to the present invention under the same spirit of the invention, which are other forms that can be implemented and have the same effect, should still be included in the scope of protection intended by the present invention.

In summary, the "horizontal energy-saving water heater" of the present invention is indeed fully in line with the needs of industrial development in terms of practicality and cost-effectiveness, and the disclosed structural invention is also an unprecedented innovative structure, so there is no doubt that it is "novel". In addition, the present invention can improve the effectiveness of the commonly used structure, so it is also "progressive". It fully complies with the provisions of the application requirements for invention patents in the Patent Law of our country. Therefore, a patent application is filed in accordance with the law, and we sincerely request the Jun Bureau to review it as soon as possible and give it affirmation.

1: Outer barrel 2: Middle barrel 3: Inner barrel 31: Water storage space 4: First insulation layer 5: Second insulation layer 6: Cold water pipe 7: Hot water pipe 8: Heating device 9: Control device A: Distance length B: Distance length C: Distance length D: Distance length E: Distance length F: Distance length G: Distance length H: Distance length I: Distance length J: Distance length L1: Center line L2: Center line L3: Center line L4: Center line

The first figure is a three-dimensional schematic diagram of the present invention. The second figure is a cross-sectional schematic diagram of the present invention. The third figure is a schematic diagram of the first insulation layer and the second insulation layer in a vacuum state. The fourth figure is another configuration of the outer barrel, the middle barrel, and the inner barrel of the present invention. The fifth figure is a schematic diagram of the asymmetric configuration of the first outer barrel, the middle barrel, and the inner barrel. The sixth figure is a schematic diagram of the asymmetric configuration of the second outer barrel, the middle barrel, and the inner barrel. The seventh figure is a schematic diagram of the asymmetric configuration of the third outer barrel, the middle barrel, and the inner barrel. The eighth figure is a schematic diagram of the asymmetric configuration of the fourth outer barrel, the middle barrel, and the inner barrel. The ninth figure is a diagram of the number of heating times when the water heater is not in use. The tenth figure is a diagram of the heating times when the present invention is not in use.

1: Outer barrel

2: Middle barrel

3: Inner barrel

31: Water storage space

4: First insulation layer

5: Second insulation layer

6: Cold water pipe

7: Hot water pipe

A: Distance length

B: Distance length

E: Distance length

F: Distance length

G: Distance length

H: distance length

Claims (8)

A horizontal energy-saving water heater comprises: an outer barrel; a middle barrel located in the outer barrel, a distance length (A) between the top of the middle barrel and the top of the outer barrel, a distance length (B) between the bottom of the middle barrel and the bottom of the outer barrel, and the distance length (A) is greater than the distance length (B); an inner barrel located in the middle barrel, the inner barrel having a water storage space; a first heat-insulating layer located between the outer barrel and the middle barrel; a second heat-insulating layer located between the middle barrel and the outer barrel; The outer barrel and the inner barrel are connected; a cold water pipe, one end of which is exposed outside the outer barrel, the cold water pipe partially penetrates the outer barrel, the middle barrel, and the inner barrel, and the other end of the cold water pipe is located inside the inner barrel; a hot water pipe, one end of which is exposed outside the outer barrel, the hot water pipe partially penetrates the outer barrel, the middle barrel, and the inner barrel, and the other end of the hot water pipe is located inside the inner barrel; a heating device, at least part of which is located inside the inner barrel; a control device, which is electrically connected to the heating device. As described in claim 1, the horizontal energy-saving water heater, wherein the material of the first insulation layer and the second insulation layer can be one of styrofoam and foam material. The horizontal energy-saving water heater as described in claim 1, wherein the first insulation layer and the second insulation layer can be vacuum. The horizontal energy-saving water heater as described in claim 1, wherein the outer barrel, the middle barrel, and the inner barrel are made of stainless steel. A horizontal energy-saving water heater as described in claim 1, wherein the distance length (A) is more than five times the distance length (B). The horizontal energy-saving water heater as described in claim 1, wherein there is a distance length (C) between the top of the middle barrel and the top of the inner barrel, and there is a distance length (D) between the bottom of the middle barrel and the bottom of the inner barrel, and the distance length (C) is greater than the distance length (D). As described in claim 6, the horizontal energy-saving water heater, wherein the positions of the inner barrel, the middle barrel, and the outer barrel relative to each other make the overall configuration asymmetrical. The horizontal energy-saving water heater as described in claim 1, wherein the inner barrel is located at the center of the middle barrel, and the middle barrel is located at the horizontal center of the outer barrel.